Compacted coffee tablet, system including said tablet and production process thereof

ABSTRACT

A compacted coffee tablet, in particular a tablet of compacted roast and ground coffee beans, presenting an advantageous configuration in terms of compaction process, maintenance of shape and efficiency of coffee extraction, in particular of espresso type coffee. A beverage preparation systems including the compacted coffee tablet, and production processes thereof.

FIELD OF THE INVENTION

The present invention refers to the field of tablets for preparing beverages and produced by means of compaction of a granular edible substance, in particular of roasted and ground coffee, as well as to beverage preparation systems including individual portion with said compacted tablets and to production processes thereof.

BACKGROUND OF THE INVENTION

The prior art includes several documents relating to compacted ground coffee tablets. Said compacted coffee ground tablets present several constrains in its industrial production, notably in terms of the shapes that can be obtained.

The form of said compacted tablets can play an important role in the preparation of a beverage, in particular in the case of espresso type coffee, or similar. In fact, can be important to provide a cavity on the upstream-oriented side so as to enable a temporary accumulation of beverage inside a package associated with said tablet, for example in the form of a two-sheet film-like envelope.

The document EP 0229920 B1 discloses a process for producing coffee tablets comprising the application of a pressure between 20.7 and 48.3 MPa to a mass of particles of roast and ground coffee with at least 3%, in particular between 3% and 6% in mass, and an average particle dimension between 0.4 mm and 2.0 mm, in particular between 0.6 mm and 1.2 mm. The process further includes coating the exterior of the compacted table with an edible material, dispersible in water, whereby said coating includes humidification with aqueous liquid and the application of dry solids.

The document U.S. Pat. No. 6,068,871 discloses a beverage preparation from a tablet compacted substance, with the general shape of a disc. Said tablet can present an upstream-oriented portion, a downstream-oriented portion and an intercalary portion, whereby said portions extend along similar extension along the prevailing flow direction. Moreover, said tablet can present a cavity arranged in centred manner in at least one of the upstream and downstream-oriented faces. In particular, the tablet can present a cavity only of spherical shape and extending along the entire upstream-oriented face of said upstream-oriented portion.

The document WO2008/123775 A1 discloses a method for producing a coffee tablet, and a coffee tablet obtained by means of said method. Said coffee tablet can present a generally irregular shape.

None of the documents in the prior art discloses a compacted coffee tablet presenting a structural configuration that provides optimization of the structural resistance and, therefore, of the quantity of material used.

GENERAL DESCRIPTION OF THE INVENTION

The objective of the present invention is to provide a compacted coffee tablet that presents better dimensional and functional characteristics.

In particular, said compacted coffee tablet should present a better general configuration, so as to present better structural resistance and better exposition of the coffee volume to the upstream flow, as well as a better configuration of the upstream-oriented portion, so as to contribute to the extraction of coffee, in particular of roasted and ground coffee beans, in the preparation of coffee based beverages, for example of the espresso coffee type.

This objective is attained according to the present invention by means of a compacted coffee tablet according to claim 1, whereby preferred embodiments are disclosed in the depending claims.

In particular, the compacted coffee tablet according to the invention presents at least the most part, preferentially at least 60%, particularly preferentially at least 70% of the compacted coffee volume in a region that extends transversally up until the total height, including in said intercalary portion and/or a second smaller part, preferentially of at most 30%, particularly preferentially of at most 20% of the compacted coffee volume, is in a region that extends transversally to a dimension smaller than the total width, including on said upstream-oriented portion.

The compacted coffee tablet according to the invention can present a relation between total width and total height of at most 5:1, preferentially of at most 4:1.

Moreover, the compacted coffee tablet according to the invention presents an upstream cavity that is different from the downstream cavity, including with a different extension along the prevailing flow direction.

Said upstream cavity can be contained in an upstream-oriented portion and said downstream cavity can be contained in a downstream-oriented, whereby said upstream and downstream-oriented portions of the compacted coffee tablet are separated by an intercalary portion.

Said downstream-oriented portion can present a downstream cavity that is arranged in centred manner and extends along only part of the transversal dimension of said downstream-oriented portion, so that the perimeter region of said downstream cavity presents a part extending in a transversal direction until the exterior perimeter region of said downstream-oriented portion.

An associated objective is to provide a compacted coffee tablet presenting a given quantity of ground coffee that presents better physical properties in view of the extraction efficacy and of the physical stability of the compacted tablet.

In particular, it is advantageous when the quantity of ground coffee is comprised between 4 and 8 grams, preferentially between 5 and 7 grams, particularly preferentially between 5.3 and 6.7 grams, and said quantity of ground coffee presents a humidity content comprised between 1 e 5% in mass, preferentially between 2 and 4% in mass.

Moreover, it is advantageous when said quantity of coffee corresponds to ground coffee presenting granulometry distribution with at least 90% of the particles with an average dimension comprised between 100 μm and 3000 μm, preferentially with at least 85% of the particles with an average dimension comprised between 250 μm and 2000 μm.

An associated objective is to provide a compacted coffee tablet that presents better distribution of at least the most part of the mass of coffee with relation to the prevailing flow direction, and, therefore, better extraction efficacy of said mass of coffee.

This objective is solved according to the present invention by means of a compacted coffee tablet that presents the most part of the mass of coffee in an intercalary portion that extension to the total exterior dimension, along the direction transversal to the prevailing flow direction.

An associated objective is to provide a beverage preparation system that presents a compacted coffee tablet that provides more advantages of use as part of a beverage preparation system, such as for example of espresso type coffee.

This objective is solved according to the present invention by means of a system according to claim 16.

The system can comprise at least one type of tablet and at least one type of individual portion including said tablet, whereby said types of tablet can vary in at least one of: mass of compacted coffee ground, tablet volume and configuration of at least one of the upstream and downstream-oriented portions, and whereby said types of individual portion can vary in at least one of: inclusion or not of an envelope of tablet, and material, type, shape and dimension of the envelope of tablet.

Another objective of the present invention is to provide a process of production of a compacted coffee tablet corresponding to an individual portion to be used in the preparation of a beverage, such as for example espresso type coffee, that provides a tablet with better compaction characteristics.

This objective is solved according to the present invention by means of a process according to claim 20.

In particular, the process according to the present invention includes the use of compaction molds and punching tools configured so as to provide a tablet with an upstream-oriented portion and a downstream-oriented portion presenting at least one of: different volumetric dimension and different cavity.

DESCRIPTION OF THE FIGURES

The invention shall be hereinafter explained in greater detail based upon preferred embodiments and the attached Figures.

The Figures show, in simplified schematic representations:

FIG. 1 : top view of a first embodiment of tablet (1) according to the present invention;

FIG. 2 : bottom view of a first embodiment of tablet (1) according to the present invention;

FIG. 3 : side view of a first embodiment of tablet (1) according to the present invention;

FIG. 4 : side-cut view of the embodiment of tablet (1) according to FIG. 3 ;

FIG. 5 : side view of a second embodiment of tablet (1) according to the present invention;

FIG. 6 : side-cut view of the embodiment of tablet (1) according to FIG. 5 ;

FIG. 7 : top view of a first embodiment of the upstream cavity (A) in a tablet (1) according to the present invention;

FIG. 8 : top view of a second embodiment of the upstream cavity (A) in a tablet (1) according to the present invention;

FIG. 9 : side view of a first embodiment of an individual portion (10) including a first type of tablet (1) according to the present invention;

FIG. 10 : side view of an embodiment of a second type of individual portion (10′) including a second type of tablet (1′) according to the present invention;

FIG. 11 : flow diagram of a production process of a tablet (1) according to the present invention;

FIG. 12 : flow diagram of a production process of an individual portion (10) including a tablet (1) according to the present invention.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS OF THE INVENTION

FIGS. 1 to 4 reproduce representative views of a first embodiment of a tablet (1) according to the present invention.

Said tablet (1) corresponds to a volume of coffee grounds that has been compacted so as to keep a corresponding three-dimensional form. Said volume corresponds to a regular geometry, including geometry that is rotation symmetric with relation to a central longitudinal axis (XX).

In particular, the tablet (1) can present a quantity, or mass, of coffee ground, previously roasted and compacted, and presenting a general shape and dimension adapted so that said tablet (1) can be used as an individual portion (10) in the preparation of an aromatic beverage. In particular, said individual portion (10) is adapted so that can be supplied to an extraction device and operated therein in the preparation of coffee based beverage, such as for example espresso-type coffee.

Said tablet (1) presents a transversal section with a total width (D_(T)) and generally symmetric with relation to a central longitudinal axis (XX), and is configured so that presents an upstream-oriented portion (11) and a downstream-oriented portion (12), with relation to a prevailing flow direction, and further presents an intercalary portion (13) that extends between said upstream and downstream-oriented portions (11, 12) and in at least the most part of its extension, in the prevailing flow direction, and along said total width (D_(T)).

As represented, said individual portion (1) can present a generally circular transversal section, so that the individual portion (1) presents a general disk-like shape, or similar.

According to an aspect of the invention, and as can be seen in particular in FIGS. 2 and 4 , said upstream-oriented portion (12) presents an upstream cavity (B) that extends in centred manner from the upstream-oriented surface of the upstream-oriented portion (12).

In particular, as represented in the drawing of FIG. 4 , the downstream cavity (B) extends along only part of the transversal dimension of said downstream-oriented portion (12), so that the perimeter region of said downstream cavity (B) presents a part extending a long an at least approximately transversal direction up to the exterior perimeter region of said downstream-oriented portion (12).

In terms of the structural resistance of the tablet, it has been determined as advantageous when the characteristic dimension, for example diameter, of the downstream cavity (B) in the downstream-oriented surface does not exceed 95%, preferentially does not exceed 90% of the corresponding characteristic dimension measured on the same plane, for example diameter, of the perimeter edge of said downstream-oriented surface of said downstream-oriented portion (12).

On the other hand, in terms of extraction of beverage, is has been demonstrated as advantageous when the characteristic dimension of the downstream cavity (B) is of at least 40%, preferentially of at least 40% of the characteristic dimension of the downstream-oriented surface of said downstream-oriented portion (12).

A cavity and a closed chamber are herewith advantageously provided, together with at least one of: a package wall of said tablet (1), and a wall of the extraction device, whereby the beverage resulting downstream can temporarily accumulate.

Moreover, said downstream cavity (B) is configured so that extends along only part of the downstream-oriented surface of said tablet (1), not occupying the entire transversal extension thereof.

In particular, said downstream-oriented portion (12) can present a perimeter region of downstream cavity (B) that extends between the downstream cavity (B) and the exterior perimeter region of said downstream-oriented portion (12), along an at least approximately similar extension, preferentially bigger extension than the extension of the exterior perimeter region.

It is preferred when the exterior perimeter region of said downstream-oriented portion (12) presents a transversal dimension smaller than said total width (D_(T)), whereby the transition from the downstream-oriented portion (12) to said intercalary portion (13) preferentially includes a surface that extends along an at least approximately transversal direction.

Moreover, it is preferred when the exterior edges of said downstream-oriented portion (12) are rounded with a curvature radius comprised between 1 and 6 mm, preferentially between 2 and 5 mm.

It is herewith advantageously provided a reinforcement of the structural resistance of the tablet (1) when submitted to the force of hydraulic pressure of said pressurized flow of extraction, along a prevailing flow direction that is at least approximately orthogonal with relation to the biggest extension of volume of the tablet (1), i.e., with relation to the total width (D_(T)).

In the case of a preferred embodiment (not represented), said downstream-oriented portion (12) can present a perimeter region of the downstream cavity (B) only of rounded shape, devoid of plane surfaces, said downstream perimeter region being preferentially configured with a rounded shape at least approximately in continuous curved connection with said downstream cavity (B).

As represented in FIG. 4 , said upstream-oriented portion (11) can present at least one upstream cavity (A) that can extend in centred manner. Said upstream cavity (A) can extend until said intercalary portion (13), and further additionally inwards of said intercalary portion (13), so as to promote an initial infiltration of the pressurized fluid in the volume of compacted coffee.

According to another aspect of the present invention, and as can be observed in FIG. 3 , the tablet (1) is configured so that the most part of the volume of compacted coffee is in a region that extends transversally to the total width (D_(T)), including in said intercalary portion (13), and a second smaller part of the volume of compacted coffee is in a region that extends transversally to a dimension smaller than the total width (D_(T)), including in said upstream-oriented portion (11).

Moreover, it is very advantageous when the tablet (1) presents a relation between total width (D_(T)) and total height (H) of at most 5, preferentially of at most 4.

Moreover, it is advantageous when said intercalary portion (13) extends along at least the most part of the total height (H_(T)) of tablet (1), and said intercalary portion (13) configures angled perimeter transitions, in particular reductions of width, at an towards said upstream (11) and downstream portions (12), preferentially including at an angle of at least approximately 90°.

A greater structural resistance of the compacted coffee tablet is herewith provided. Moreover, it is herewith provided a greater relative fraction of the total coffee mass with exposition along a maximum transversal dimension (D_(T)) to the prevailing infusion flow direction, thereby contributing to a greater extraction efficacy of the coffee beverage.

FIGS. 3 and 4 represent a first embodiment of the tablet (1) according to the present invention, whereby the upstream-oriented portion (11) presents an upstream cavity (A) that only extends on said upstream-oriented portion (11) and does not extend downstream to the region of the intercalary portion (13), whereas the FIGS. 5 and 6 represent a second embodiment of tablet (1′) according to the present invention whereby the upstream cavity (A) extends downstream to the region of the intercalary portion (13). In the first case, the upstream cavity (A) can present a cylindrical shape whereas in the second case can present a conic shape.

It has been demonstrated as advantageous when the downstream cavity (B) presents a semi-spherical, spherical-cap, or ovoid-like shape.

Moreover, the second embodiment presents a tablet (1′) with a total height (H′) that is bigger than the total height (H) associated with the tablet (1) of said first embodiment.

In particular, a beverage preparation system according to the present invention can include at least two types of tablets (1, 1′) presenting different heights (H), and similar heights of upstream and downstream portions (H₁₁, H₁₂), so that only varies the height of respective intercalary portions (H₁₃). It is further preferred when said types of tablets (1, 1′) presents similar total diameters (D_(T)).

The tablet (1) according to the present invention presents a quantity of roasted and ground coffee beans that is compacted in a compaction process that includes providing said quantity of previously roasted and ground coffee beans to a compaction mold presenting an interior shape and dimensions corresponding to the tablet (1) according to the present invention.

Said quantity of coffee grounds is advantageously comprised between 4 and 8 grams, preferentially between 5 and 7 grams, particularly preferentially between 5.3 and 6.7 grams, whereas said quantity of coffee grounds presents a humidity content comprised between 1 and 5% in mass, preferentially between 2 and 4% in mass.

Moreover, it has been demonstrated as particularly advantageous in tests that have been carried out when said quantity of coffee corresponds to granulated coffee presenting a granulometry distribution with at least 90% of particles with an average dimension comprised between 100 μm and 3000 μm, preferentially with at least 85% of the particles with an average dimension between 250 μm and 2000 μm.

FIGS. 7 and 8 represent two preferred embodiments of the upstream cavity (A) provided on the upstream-oriented surface of the upstream-oriented portion (11).

Said at least one upstream cavity (A) can advantageously present an exterior perimeter corresponding to a geometric shape different from a circle, when seen in top view. In particular, said shape can correspond to at least one of: a polygon and an unclosed line (not represented in the drawings).

It has been demonstrated as advantageous when the upstream cavity (A) that extends along at least one closed alignment confined by an exterior perimeter and an interior perimeter, both extending at the face of the upstream surface of said upstream-oriented portion (11). The upstream cavity (A) can herewith provide a preferential entry region of the upstream pressurized flow, favouring the orientation of its crossing of the compacted coffee tablet (1).

In the case of the represented embodiments, said upstream cavity (A) can confine the cavity between an exterior perimeter and an interior perimeter, whereby said exterior and interior perimeters can advantageously present a geometric shape at least approximately similar, when seen in top view.

In beverage preparation systems known in the prior art, it is known the use of beverage preparation apparatuses adapted so that can collect an individual portion, for example of roast and ground coffee, so as to prepare a beverage, for example of espresso type coffee.

FIGS. 9 and 10 represent two types of individual portions (10, 10′) including a compacted coffee tablet (1, 1′).

In the case of a first type represented in FIG. 9 , the individual portion (10) presents a compacted coffee tablet (1), in particular a tablet (1) presenting a general configuration according to the presenting invention, and an envelope (2) in the form of an edible coating that provides gas barrier and can dissolve when exposed to a temperature of at least 50° C., preferentially of at least 60° C. Said edible coating is advantageously provided in a layer of at least approximately uniform configuration around the whole exterior surface of the tablet (1), preferentially so that the edible coating layer at least approximately follows the contour surface of at least one of respective upstream (A) and downstream (B) cavities is also coated by said edible coating.

In the case of a second type represented in FIG. 10 , said individual portion (10′) presents a tablet (1) and an envelope of a non-edible material, in particular of a synthetic material, provided so that confines said cavities (A, B), but not following the shape contour thereof.

The downstream cavity (B) in this case advantageously provides an extraction chamber, and the envelope (2) is preferentially configured, at least on the upstream-oriented side, so that temporarily retains the beverage flow that accumulated on said downstream cavity (B) against the retention of said envelope (2) until reaching a previously defined pressure value. There are known several embodiments of this type of envelope in the prior art so that one abdicates in this circumstance of a more detailed description thereof.

In the case of a process of production of a compacted coffee tablet (1) according to the present invention—see FIG. 11 —, a previously determined quantity of previously roasted and ground coffee beans is supplied evenly split to a plurality of molds of a compaction machine.

Said quantity of roast and ground coffee beans, is comprised between 4 and 8 grams, preferentially between 5 and 7 grams, particularly preferentially between 5.3 and 6.7 grams.

In tests that have been carried out, it has been shown that it is particularly advantageous when said quantity of coffee grounds presents a humidity content comprised between 1 and 5% in mass, preferentially between 2 and 4% in mass.

After supplying said quantity of roast and ground coffee beans, there is applied a plurality of successive compaction cycles with a compaction force comprised between 4 and 6 kN, preferentially between 4.5 and 5.5 kN.

Said compaction force can be applied in two different directions by means of two punching tools.

Said compaction molds and punching tools can be configured so as to provide a tablet (1) with an upstream-oriented portion (11) and a downstream-oriented portion (12) presenting at least one of: different volumetric dimension and different respective cavity (A, B).

The process according to the present invention enables obtaining a tablet (1) with a friability corresponding to a hardness comprised between 10 and 20 N, preferentially between 13 and 17 N.

FIG. 12 represents the steps of a complementary production process of an individual portion (10) including a tablet (1) according to the present invention.

In particular, the process includes the supply of at least one, preferentially of a plurality of tablets (1) according to the present invention, to a first envelope part (2) adapted to interact with a downstream-oriented portion (12) of the tablet (1).

Lisbon, Nov. 20, 2020 

1. Tablet for preparing edible products, in particular aromatic beverages, such as for example espresso type coffee, said tablet presenting a volume and a quantity of compacted ground coffee, said tablet presenting a side cross-section presenting a total width (D_(T)) and generally symmetric shape with relation to a central longitudinal axis (XX), said tablet presenting an upstream-oriented portion and a downstream-oriented portion, with relation to a prevailing flow direction, and further presenting an intercalary portion that extends between said upstream and downstream-oriented portions and along said total width (D_(T)) in at least the most part of its extension along the prevailing flow direction, said tablet being characterized in that the tablet is configured so that presents at least one, preferentially at least two of: the most part, preferentially at least 60%, particularly preferentially at least 70% of the compacted coffee volume is in a region that extends transversally until the total width (D_(T)), including on said intercalary portion; a second smaller part, preferentially of at most 30%, particularly preferentially of at most 20%, of the compacted coffee volume is in a region that extends transversally up to a smaller dimension than the total width (D_(T)), including on said upstream-oriented portion; a relation between total width (D_(T)) and total height (H) of at most 5:1, preferentially at most 4:1.
 2. Tablet according to claim 1, characterized in that the intercalary portion extends along at least most part of the total height (H_(T)) of tablet, and in that the intercalary portion configures perimeter transitions, in particular reductions of width, at an angle towards said upstream and downstream portions, preferentially including at an angle of at least approximately 90°.
 3. Tablet according to claim 1, characterized in that the tablet presents at least one of, preferentially both of following shape relations: an asymmetric configuration, in terms of geometric shape with relation to a central transversal plane (YY), including so that said intercalary portion extends in uneven manner with relation thereto; an asymmetric configuration, in terms of total mass with relation to a central transversal plane (YY), so that the mass fraction of said intercalary portion upstream thereof is different from, preferentially bigger than, the mass fraction of the intercalary portion downstream thereof.
 4. Tablet according to claim 1, characterized in that the tablet presents at least one of the following configurations: the exterior side edges of the upstream-oriented portion define a transversal dimension smaller than the total width (D_(T)), whereby the transition of the upstream-oriented portion to the intercalary portion includes an upstream-oriented perimeter surface, and the upstream-oriented portion presents a surface that extends at least approximately transversally relative to the prevailing flow direction, along at least most part, preferentially at least 90% of the extension of the upstream-oriented portion, e the exterior side edges of the upstream-oriented portion are in plane surface inclined at an angle (alfa) of at least 65° and at most 85° relative to the prevailing flow direction.
 5. Tablet according to claim 1, characterized in that the tablet presents at least one, preferentially at least two of the following dimensional relations: a total height (H_(T)) comprised between 5 and 10 mm, preferentially between 7 and 9 mm; a height (H₁₁) of the upstream-oriented portion of at most 2 mm, preferentially at most 1 mm; a height (H₁₂) of the downstream-oriented portion of at least 2 mm and at most 4 mm, preferentially at least 2.5 mm and at most 3.5 mm; a height (H₁₃) of the intercalary portion of at most 7 mm, preferentially at most 5 mm, and in that the tablet presents a granulometry distribution with at least 90% of the particles with an average dimension comprised between at least 100 μm and up to 3000 μm, preferentially at least 85% of the particles with an average dimension of at least 250 μm and up to 2000 μm.
 6. Tablet according to claim 1, characterized in that the tablet presents at least one, preferentially at least two of the following dimensional relations: a total width (D_(T)) comprised between 30 and 44 mm, preferentially between 32 and 40 mm; a maximum transversal extension of the upstream cavity (A), for example a maximum diameter, comprised between 5 and 40 mm, preferentially between 10 and 35 mm; a maximum transversal extension of the downstream cavity (B), for example a maximum diameter, comprised between 20 and 30 mm, preferentially between 23 and 27 mm.
 7. Tablet according to claim 1, characterized in that the downstream-oriented portion presents a downstream cavity (B) that extends in centred manner and curved surface when seen in side cut, along part of the transversal dimension of the downstream-oriented portion, so that the perimeter region of said downstream cavity (B) presents a part extending along an at least approximately transversal plane up to the exterior perimeter region of the downstream-oriented portion.
 8. Tablet according to claim 1, characterized in that the downstream-oriented portion is configured so that presents at least one of: the exterior perimeter region of said downstream-oriented portion includes a surface that is curved when seen in transversal side cut, and that preferentially extends from the proximity of the perimeter region of the downstream cavity (B) to the intercalary portion, the perimeter region of the downstream cavity (B) extends between the curved surface of the downstream cavity (B) and the curved surface of the exterior perimeter region of the downstream-oriented portion, and the downstream-oriented portion presents a perimeter region of the downstream cavity (B) that extends between the downstream cavity (B) and the exterior perimeter region of the downstream-oriented portion, in an extension at least approximately similar, preferentially smaller, that the extension of the exterior perimeter region.
 9. Tablet according to claim 1, characterized in that the downstream-oriented portion is configured so that presents at least one of: the exterior perimeter region of the downstream-oriented portion presents a transversal dimension smaller than the total width (D_(T)), whereby the transition of the downstream-oriented to the intercalary portion preferentially includes a surface that extends along an at least approximately transversal direction, and the external perimeter edges of the downstream-oriented portion are rounded when seen in transversal side cut, preferentially in an at least approximately circular curvature, with a curvature radius comprised between 1 and 6 mm, preferentially between 2 and 5 mm.
 10. Tablet according to claim 1, characterized in that the downstream cavity (B) is configured so that presents at least one of: a semi-spherical shape that extends between at least 50% and at most 75% of the exterior dimension (D_(T)), the characteristic dimension, for example diameter, of the downstream cavity (B) measured on the downstream-oriented surface of the downstream-oriented portion, does not exceed 95%, preferentially does not exceed 90%, of the corresponding characteristic dimension, for example diameter, measured on the same plane of the perimeter edge of the downstream-oriented surface of the downstream-oriented portion next to the intercalary portion.
 11. Tablet according to claim 1, characterized in that the upstream-oriented portion presents at least one upstream cavity (A) disposed in centred manner and that can extend at least until the intercalary portion, and in that the, at least one, upstream cavity (A) occupies at least one of: a shape of linear type confining an area, and a shape of area type.
 12. Tablet according to claim 1, characterized in that at least one of the upstream and downstream-oriented portions presents at least one respective cavity (A, B) extending downstream and upstream, respectively, whereby said cavities (A, B) presents at least one, preferentially at least two, of the following dimensional relations: said cavities (A, B) present a different cavity volume, whereby it is preferred when the downstream cavity (B) presents a volume bigger than the volume of the upstream cavity (A); said cavities (A, B) present a different transversal extension, whereby it is preferred when the downstream cavity (B) presents a transversal extension bigger than the transversal extension of the upstream cavity (A); said cavities (A, B) present a different configuration, whereby it is preferred when at least the upstream cavity (A) does not present a rotation symmetric configuration with relation to the central longitudinal axis (XX); at least one of said cavities (A, B) extends at least until the proximity of the intercalary portion, preferentially not more than said intercalary portion.
 13. Tablet according to claim 1, characterized in that the region of transition from the upstream and downstream-oriented portions to the intercalary portion, includes in each case a surface that extends along a transversal direction and that forms an at least approximately right angle with the exterior wall of the intercalary portion.
 14. Tablet according to claim 1, characterized in that quantity of coffee grounds is comprised between 4 and 8 grams, preferentially between 5 and 7 grams, particularly preferentially between 5.3 and 6.7 grams, and in that said quantity of coffee grounds presents moisture content comprised between 1 and 5% in mass, preferentially between 2 and 4% in mass.
 15. Tablet according to claim 1, characterized in that the quantity of coffee ground corresponds to granulated coffee presenting a granulometry distribution with at least 90% of the particles with an average dimension comprised between 100 μm and 3000 μm, preferentially with at least 85% of the particles with an average dimension comprised between 250 μm and 2000 μm.
 16. System for preparing edible products, in particular for preparing beverages, said system including: an individual portion including a tablet according to claim 1, an apparatus, in particular a beverage preparation apparatus, comprising injection means of a pressurized flow so that can impinge upon an upstream-oriented portion of the individual portion inside of an extraction device, so that the beverage can be collected downstream of said downstream-oriented portion; characterized in that the system comprises at least one type of tablet and at least one type of individual portion including said tablet, whereby said types of tablet can vary in at least one of: mass of compacted coffee grounds, volume of compacted tablet and configuration of at least one of the upstream and downstream-oriented portions, and whereby said types of individual portion can vary in at least one of: inclusion or not of tablet envelope, material, type, shape and dimension of tablet envelope.
 17. System according to claim 16, characterized in that the individual portion comprises a tablet can be provided inside of an envelope with gas barrier properties, including at least one of: an envelope in an edible material, preferentially provided as a coating of the table and so that can follow the shape outline of at least one of said cavities (A, B); an envelope in a non-edible material, in particular in a synthetic material, provided so that can confine an adjacent space that does not follow the shape outline of said cavities (A, B), and whereby the envelope can comprise at least one envelope support, for example a folio-like support, whereby said envelope support includes at least one of: a single individual portion; a plurality of individual portions arranged successively along an extension of said envelope support.
 18. System according to claim 16, characterized in that the individual portion is adapted so that provides the recognition of at least one characteristic associated with said upstream and downstream-oriented portions, including by at least one of: by the user, by mechanical means of supply of the individual portion to the extraction device, and by automatic recognition means.
 19. System according to claim 16, characterized in that includes at least two types of tablets that differ in at least one of: exterior volume of the tablet; mass of compacted ground coffee of the tablet; extension (H₁₃) of the intercalary portion along the prevailing flow direction; dimension of the downstream cavity (B), preferentially including extension thereof along the prevailing flow direction.
 20. Process for production of an individual portion including a coffee tablet, in particular of a tablet according to claim 1, characterized in that includes the steps: supplying a previously determined similar quantity of roasted and ground coffee beans to a plurality of compaction molds arranged in a compacting apparatus, whereby said quantity of ground coffee is comprised between 4 and 8 grams, preferentially between 5 and 7 grams, particularly preferentially between 5.3 and 6.7 grams, whereby said quantity of ground coffee presents a moisture content comprised between 1 and 5% in mass, preferentially between 2 and 4% in mass, applying a plurality of successive compaction cycles upon the molds, preferentially with a compaction force comprised between 4 and 6 kN, particularly preferentially between 4.5 and 5.5 kN; whereby said compaction force is preferentially applied in two different directions by means of two punching tools; whereby said compaction molds and punching tools are configured so as to provide a tablet with an upstream-oriented portion and a downstream-oriented portion presenting at least one of: different volume and different cavity (A, B); obtaining a tablet with a friability corresponding to a hardness comprised between 10 and 20 N, preferentially between 13 and 17 N.
 21. Process according to claim 20, characterized in that said quantity of ground coffee corresponds to a ground coffee presents a distribution of granulometry with at least 90% of the particles with an average dimension comprised between 100 μm and 3000 μm, preferentially with at least 85% of the particles with a dimension comprised between 250 μm and 2000 μm.
 22. Process according to claim 20, characterized in that after obtaining said tablet with a hardness comprised between 10 and 20 N, further includes the steps: providing at least one, preferentially a plurality of said tablets to a first envelope part adapted to be disposed on the side of downstream-oriented portion, in particular so that are successively partially collected in respective pre-formed cavities along an extension of said first envelope part; providing a second envelope part adapted to be disposed on the side of upstream-oriented portion; providing a sealing between said first and second envelope parts of envelope.
 23. Process according to claim 20, characterized in that after obtaining said tablet with a hardness comprised between 10 and 20 N, further includes the steps: providing an edible coating as envelope of the tablet thereby obtaining an individual portion; providing a plurality of individual portions to a package devoid of a material with gas barrier. 